Misplaced Pages

Abzyme

Article snapshot taken from Wikipedia with creative commons attribution-sharealike license. Give it a read and then ask your questions in the chat. We can research this topic together.
Type of antibody

An abzyme (from antibody and enzyme), also called catmab (from catalytic monoclonal antibody), and most often called catalytic antibody or sometimes catab, is a monoclonal antibody with catalytic activity. Abzymes are usually raised in lab animals immunized against synthetic haptens, but some natural abzymes can be found in normal humans (anti-vasoactive intestinal peptide autoantibodies) and in patients with autoimmune diseases such as systemic lupus erythematosus, where they can bind to and hydrolyze DNA. To date abzymes display only weak, modest catalytic activity and have not proved to be of any practical use. They are, however, subjects of considerable academic interest. Studying them has yielded important insights into reaction mechanisms, enzyme structure and function, catalysis, and the immune system itself.

Enzymes function by lowering the activation energy of the transition state of a chemical reaction, thereby enabling the formation of an otherwise less-favorable molecular intermediate between the reactant(s) and the product(s). If an antibody is developed to bind to a molecule that is structurally and electronically similar to the transition state of a given chemical reaction, the developed antibody will bind to, and stabilize, the transition state, just like a natural enzyme, lowering the activation energy of the reaction, and thus catalyzing the reaction. By raising an antibody to bind to a stable transition-state analog, a new and unique type of enzyme is produced.

So far, all catalytic antibodies produced have displayed only modest, weak catalytic activity. The reasons for low catalytic activity for these molecules have been widely discussed. Possibilities indicate that factors beyond the binding site may play an important role, in particular through protein dynamics. Some abzymes have been engineered to use metal ions and other cofactors to improve their catalytic activity.

History

The possibility of catalyzing a reaction by means of an antibody which binds the transition state was first suggested by William P. Jencks in 1969. In 1994 Peter G. Schultz and Richard A. Lerner received the prestigious Wolf Prize in Chemistry for developing catalytic antibodies for many reactions and popularizing their study into a significant sub-field of enzymology.

Abzymes in healthy human breast milk

There are a broad range of abzymes in healthy human breast milk with DNAse, RNAse, and protease activity.

Potential HIV treatment

In a June 2008 issue of the journal Autoimmunity Review, researchers S. Planque, Sudhir Paul, Ph.D., and Yasuhiro Nishiyama, Ph.D. of the University Of Texas Medical School at Houston announced that they have engineered an abzyme that degrades the superantigenic region of the gp120 CD4 binding site. This is the one part of the HIV virus outer coating that does not change, because it is the attachment point to T lymphocytes, the key cell in cell-mediated immunity. Once infected by HIV, patients produce antibodies to the more changeable parts of the viral coat. The antibodies are ineffective because of the virus' ability to change their coats rapidly. Because this protein gp120 is necessary for HIV to attach, it does not change across different strains and is a point of vulnerability across the entire range of the HIV variant population.

The abzyme does more than bind to the site: it catalytically destroys the site, rendering the virus inert, and then can attack other HIV viruses. A single abzyme molecule can destroy thousands of HIV viruses.

References

  1. ^ "Abzymes: Absource". crdd.osdd.net. Retrieved 2022-06-02.
  2. "Study Notes on Abzymes (With Diagram)". Biology Discussion. 2016-02-24. Retrieved 2022-06-02.
  3. Baron, D. (January 1992). "[Catalytic antibodies]". Die Naturwissenschaften. 79 (1): 15–22. doi:10.1007/BF01132273. ISSN 0028-1042. PMID 1552949. S2CID 39930319.
  4. ^ Barrera, G. J., Portillo, R., Mijares, A., Rocafull, M. A., del Castillo, J. R., & Thomas, L. E. (2009). Immunoglobulin A with protease activity secreted in human milk activates PAR-2 receptors, of intestinal epithelial cells HT-29, and promotes beta-defensin-2 expression. Immunology letters, 123(1), 52-59.
  5. Agarwal PK (2005). "Role of protein dynamics in reaction rate enhancement by enzymes". J. Am. Chem. Soc. 127 (43): 15248–56. doi:10.1021/ja055251s. PMID 16248667.
  6. Nicholas, Ken (January 30, 2004). "Catalytic Metalloantibodies: Biology in Service of Chemistry" (PDF). southeastern.edu. Archived (PDF) from the original on 2022-10-09. Retrieved 2019-11-11.
  7. "Metalloantibodies. - Science - HighBeam Research". 23 March 2015. Archived from the original on 23 March 2015.
  8. "Antibody Catalysis, Linus Pauling, W.P. Jencks, Kohler and Milstein". www.dsch.univ.trieste.it.
  9. "Organic Chemist Peter Schultz wins Wolf Prize in Chemistry". www2.lbl.gov.
  10. Planque, S; Nishiyama, Y; Taguchi, H; Salas, M; Hanson, C; Paul, S (2008). "Catalytic antibodies to HIV: Physiological role and potential clinical utility". Autoimmunity Reviews. 7 (6): 473–9. doi:10.1016/j.autrev.2008.04.002. PMC 2527403. PMID 18558365.
  11. "UT pathologists believe they have pinpointed Achilles heel of HIV". physorg.com. Retrieved 2008-07-16.
Antiviral drugs: antiretroviral drugs used against HIV (primarily J05)
Capsid inhibitors
Entry/fusion inhibitors
(Discovery and development)
Integrase inhibitors
(Integrase strand transfer inhibitors (INSTI))
Maturation inhibitors
Protease Inhibitors (PI)
(Discovery and development)
1 generation
2 generation
Reverse-transcriptase
inhibitors
(RTIs)
Nucleoside and
nucleotide (NRTI)
Non-nucleoside (NNRTI)
(Discovery and development)
1 generation
2 generation
Combined formulations
Pharmacokinetic boosters
Experimental agents
Uncoating inhibitors
Transcription inhibitors
Translation inhibitors
BNAbs
Other
Failed agents
°DHHS recommended initial regimen options. Formerly or rarely used agent.
Categories: